#!/usr/bin/env tclsh

set testdir [file dirname $argv0]
source $testdir/tester.tcl

do_execsql_test subquery-inner-filter {
    select sub.loud_hat from (
        select concat(name, '!!!') as loud_hat 
        from products where name = 'hat'
    ) sub;
} {hat!!!}

do_execsql_test subquery-inner-filter-cte {
    with sub as (
        select concat(name, '!!!') as loud_hat 
        from products where name = 'hat'
    )
    select sub.loud_hat from sub;
} {hat!!!}

do_execsql_test subquery-outer-filter {
    select sub.loud_hat from (
        select concat(name, '!!!') as loud_hat 
        from products
    ) sub where sub.loud_hat = 'hat!!!'
} {hat!!!}

do_execsql_test subquery-outer-filter-cte {
    with sub as (
        select concat(name, '!!!') as loud_hat 
        from products
    )
    select sub.loud_hat from sub where sub.loud_hat = 'hat!!!'
} {hat!!!}

do_execsql_test subquery-without-alias {
    select loud_hat from (
        select concat(name, '!!!') as loud_hat 
        from products where name = 'hat'
    );
} {hat!!!}

do_execsql_test subquery-without-alias-cte {
    with cte as (
        select concat(name, '!!!') as loud_hat 
        from products where name = 'hat'
    )
    select loud_hat from cte;
} {hat!!!}

do_execsql_test subquery-no-alias-on-col {
    select price from (
        select * from products where name = 'hat'
    )
} {79.0}

do_execsql_test subquery-no-alias-on-col-cte {
    with cte as (
        select * from products where name = 'hat'
    )
    select price from cte
} {79.0}

do_execsql_test subquery-no-alias-on-col-named {
    select price from (
        select price from products where name = 'hat'
    )
} {79.0}

do_execsql_test subquery-no-alias-on-col-named-cte {
    with cte as (
        select price from products where name = 'hat'
    )
    select price from cte
} {79.0}

do_execsql_test subquery-select-star {
    select * from (
        select price, price + 1.0, name from products where name = 'hat'
    )
} {79.0|80.0|hat}

do_execsql_test subquery-select-star-cte {
    with cte as (
        select price, price + 1.0, name from products where name = 'hat'
    )
    select * from cte
} {79.0|80.0|hat}

do_execsql_test subquery-select-table-star {
    select sub.* from (
        select price, price + 1.0, name from products where name = 'hat'
    ) sub
} {79.0|80.0|hat}

do_execsql_test subquery-select-table-star-cte {
    with sub as (
        select price, price + 1.0, name from products where name = 'hat'
    )
    select sub.* from sub
} {79.0|80.0|hat}

do_execsql_test nested-subquery {
    select sub.loudest_hat from (
        select upper(nested_sub.loud_hat) as loudest_hat from (
            select concat(name, '!!!') as loud_hat 
            from products where name = 'hat'
        ) nested_sub 
    ) sub;
} {HAT!!!}

do_execsql_test nested-subquery-cte {
    with nested_sub as (
        select concat(name, '!!!') as loud_hat 
        from products where name = 'hat'
    ),
    sub as (
        select upper(nested_sub.loud_hat) as loudest_hat from nested_sub
    )
    select sub.loudest_hat from sub;
} {HAT!!!}

do_execsql_test_on_specific_db {:memory:} correlated-left-join-exists {
    create table t(a);
    create table s(a);
    insert into t values (1);
    select t.a
      from t
      left join s
        on t.a = s.a
     where exists (select 1 where s.a is null);
} {1}

do_execsql_test subquery-orderby-limit {
    select upper(sub.loud_name) as loudest_name 
    from (
        select concat(name, '!!!') as loud_name 
        from products 
        order by name 
        limit 3
    ) sub;
} {ACCESSORIES!!!
BOOTS!!!
CAP!!!}

do_execsql_test subquery-orderby-limit-cte {
    with sub as (
        select concat(name, '!!!') as loud_name 
        from products 
        order by name 
        limit 3
    )
    select upper(sub.loud_name) as loudest_name from sub;
} {ACCESSORIES!!!
BOOTS!!!
CAP!!!}

do_execsql_test table-join-subquery {
    select sub.product_name, p.name 
    from products p join (
        select name as product_name 
        from products
    ) sub on p.name = sub.product_name where p.name = 'hat'
} {hat|hat}

do_execsql_test table-join-subquery-cte {
    with sub as (
        select name as product_name 
        from products
    )
    select sub.product_name, p.name 
    from products p join sub on p.name = sub.product_name 
    where p.name = 'hat'
} {hat|hat}

do_execsql_test subquery-join-table {
    select sub.product_name, p.name
    from (
        select name as product_name 
        from products
    ) sub join products p on sub.product_name = p.name where sub.product_name = 'hat'
} {hat|hat}

do_execsql_test subquery-join-table-cte {
    with sub as (
        select name as product_name 
        from products
    )
    select sub.product_name, p.name
    from sub join products p on sub.product_name = p.name 
    where sub.product_name = 'hat'
} {hat|hat}

do_execsql_test subquery-join-subquery {
    select sub1.sus_name, sub2.truthful_name
    from (
        select name as sus_name
        from products
        where name = 'cap'
    ) sub1 join (
        select concat('no ', name) as truthful_name
        from products 
        where name = 'cap'
    ) sub2;
} {"cap|no cap"}

do_execsql_test subquery-join-subquery-cte {
    with sub1 as (
        select name as sus_name
        from products
        where name = 'cap'
    ),
    sub2 as (
        select concat('no ', name) as truthful_name
        from products 
        where name = 'cap'
    )
    select sub1.sus_name, sub2.truthful_name
    from sub1 join sub2;
} {"cap|no cap"}

do_execsql_test select-star-table-subquery {
    select * 
    from products p join (
        select name, price 
        from products
        where name = 'hat'
    ) sub on p.name = sub.name;
} {1|hat|79.0|hat|79.0}

do_execsql_test select-star-table-subquery-cte {
    with sub as (
        select name, price 
        from products
        where name = 'hat'
    )
    select * 
    from products p join sub on p.name = sub.name;
} {1|hat|79.0|hat|79.0}

do_execsql_test select-star-subquery-table {
    select * 
    from (
        select name, price 
        from products
        where name = 'hat'
    ) sub join products p on sub.name = p.name;
} {hat|79.0|1|hat|79.0}

do_execsql_test select-star-subquery-table-cte {
    with sub as (
        select name, price 
        from products
        where name = 'hat'
    )
    select * 
    from sub join products p on sub.name = p.name;
} {hat|79.0|1|hat|79.0}

do_execsql_test select-star-subquery-subquery {
    select *
    from (
        select name, price 
        from products
        where name = 'hat'
    ) sub1 join (
        select price
        from products 
        where name = 'hat'
    ) sub2 on sub1.price = sub2.price;
} {hat|79.0|79.0}

do_execsql_test select-star-subquery-subquery-cte {
    with sub1 as (
        select name, price 
        from products
        where name = 'hat'
    ),
    sub2 as (
        select price
        from products 
        where name = 'hat'
    )
    select *
    from sub1 join sub2 on sub1.price = sub2.price;
} {hat|79.0|79.0}

do_execsql_test subquery-inner-grouping {
    select is_jennifer, person_count
    from (
        select first_name = 'Jennifer' as is_jennifer, count(1) as person_count from users
        group by first_name = 'Jennifer'
    ) order by person_count asc
} {1|151
0|9849}

do_execsql_test subquery-inner-grouping-cte {
    with cte as (
        select first_name = 'Jennifer' as is_jennifer, count(1) as person_count from users
        group by first_name = 'Jennifer'
    )
    select is_jennifer, person_count
    from cte order by person_count asc
} {1|151
0|9849}

do_execsql_test subquery-outer-grouping {
    select is_jennifer, count(1) as person_count
    from (
        select first_name = 'Jennifer' as is_jennifer from users
    ) group by is_jennifer order by count(1) asc
} {1|151
0|9849}

do_execsql_test subquery-outer-grouping-cte {
    with cte as (
        select first_name = 'Jennifer' as is_jennifer from users
    )
    select is_jennifer, count(1) as person_count
    from cte group by is_jennifer order by count(1) asc
} {1|151
0|9849}

do_execsql_test subquery-join-using-with-outer-limit {
    SELECT p.name, sub.funny_name 
    FROM products p 
    JOIN (
        select id, concat(name, '-lol') as funny_name 
        from products
    ) sub USING (id) 
    LIMIT 3;
} {"hat|hat-lol
cap|cap-lol
shirt|shirt-lol"}

do_execsql_test subquery-join-using-with-outer-limit-cte {
    WITH sub AS (
        select id, concat(name, '-lol') as funny_name 
        from products
    )
    SELECT p.name, sub.funny_name 
    FROM products p 
    JOIN sub USING (id) 
    LIMIT 3;
} {"hat|hat-lol
cap|cap-lol
shirt|shirt-lol"}

do_execsql_test subquery-join-using-with-inner-limit {
    SELECT p.name, sub.funny_name 
    FROM products p 
    JOIN (
        select id, concat(name, '-lol') as funny_name 
        from products
        limit 3
    ) sub USING (id);
} {"hat|hat-lol
cap|cap-lol
shirt|shirt-lol"}

do_execsql_test subquery-join-using-with-inner-limit-cte {
    WITH sub AS (
        select id, concat(name, '-lol') as funny_name 
        from products
        limit 3
    )
    SELECT p.name, sub.funny_name 
    FROM products p 
    JOIN sub USING (id);
} {"hat|hat-lol
cap|cap-lol
shirt|shirt-lol"}

do_execsql_test subquery-join-using-with-both-limits {
    SELECT p.name, sub.funny_name 
    FROM products p 
    JOIN (
        select id, concat(name, '-lol') as funny_name 
        from products
        limit 3
    ) sub USING (id)
    LIMIT 2;
} {"hat|hat-lol
cap|cap-lol"}

do_execsql_test subquery-join-using-with-both-limits-cte {
    WITH sub AS (
        select id, concat(name, '-lol') as funny_name 
        from products
        limit 3
    )
    SELECT p.name, sub.funny_name 
    FROM products p 
    JOIN sub USING (id)
    LIMIT 2;
} {"hat|hat-lol
cap|cap-lol"}

do_execsql_test subquery-containing-join {
    select foo, bar 
    from (
        select p.name as foo, u.first_name as bar 
        from products p join users u using (id)
    ) limit 3;
} {hat|Jamie
cap|Cindy
shirt|Tommy}

do_execsql_test subquery-containing-join-cte {
    with cte as (
        select p.name as foo, u.first_name as bar 
        from products p join users u using (id)
    )
    select foo, bar 
    from cte limit 3;
} {hat|Jamie
cap|Cindy
shirt|Tommy}

do_execsql_test subquery-ignore-unused-cte {
    with unused as (select last_name from users), 
    sub as (select first_name from users where first_name = 'Jamie' limit 1) 
    select * from sub;
} {Jamie}

# Test verifying that select distinct works (distinct ages are 1-100)
do_execsql_test subquery-count-distinct-age {
    select count(1) from (select distinct age from users);
} {100}

# Test verifying that select distinct works for multiple columns, and across joins
do_execsql_test subquery-count-distinct {
    select count(1) from (
        select distinct first_name, name 
        from users u join products p 
        where u.id < 100
    );
} {902}

do_execsql_test subquery-count-all {
    select count(1) from (
        select first_name, name 
        from users u join products p 
        where u.id < 100
    );
} {1089}

do_execsql_test_on_specific_db {:memory:} subquery-cte-available-in-arbitrary-depth {
    with cte as (select 1 as one)
    select onehundredandeleven+1 as onehundredandtwelve
    from (
        with cte2 as (select 10 as ten)
        select onehundredandone+ten as onehundredandeleven
        from (
            with cte3 as (select 100 as hundred)
            select one+hundred as onehundredandone
            from cte join cte3
        ) join cte2
    );
} {112}

# WHERE CLAUSE SUBQUERIES

# EXISTS/NOT EXISTS

do_execsql_test_on_specific_db {:memory:} subquery-exists-basic {
    create table test(a);
    insert into test values (1);
    select * from test where exists (select 0);
    select * from test where not exists (select 0 where false);
} {1
1}

# Trivial example: get all users if there are any products
do_execsql_test_on_specific_db {:memory:} subquery-exists-uncorrelated {
    create table products(id, name, price);
    create table users(id, name);
    insert into products values (1, 'hat', 50), (2, 'cap', 75), (3, 'shirt', 100);
    insert into users values (1, 'Alice'), (2, 'Bob'), (3, 'Charlie');

    select * from users where exists (select 1 from products);
} {1|Alice
2|Bob
3|Charlie}

# Get all products when there are no users
do_execsql_test_on_specific_db {:memory:} subquery-not-exists-uncorrelated {
    create table products(id, name, price);
    create table users(id, name);
    insert into products values (1, 'hat', 50), (2, 'cap', 75);

    select * from products where not exists (select 1 from users);
} {1|hat|50
2|cap|75}

# Get products that have a matching category
do_execsql_test_on_specific_db {:memory:} subquery-exists-correlated {
    create table products(id, name, category_id);
    create table categories(id, name);
    insert into products values (1, 'hat', 10), (2, 'cap', 20), (3, 'shirt', 10);
    insert into categories values (10, 'Clothing'), (30, 'Electronics');

    select * from products p where exists (
        select * from categories c where c.id = p.category_id
    );
} {1|hat|10
3|shirt|10}

# Get users who have no orders
do_execsql_test_on_specific_db {:memory:} subquery-not-exists-correlated {
    create table users(id, name, age);
    create table orders(id, user_id, amount);
    insert into users values (1, 'Alice', 25), (2, 'Bob', 30), (3, 'Charlie', 35);
    insert into orders values (1, 1, 100), (2, 3, 200);

    select * from users u where not exists (
        select * from orders o where o.user_id = u.id
    );
} {2|Bob|30}

# Get products that belong to the 'Clothing' category
do_execsql_test_on_specific_db {:memory:} subquery-exists-with-conditions {
    create table categories(id, name);
    create table products(id, name, price, category_id);
    insert into categories values (1, 'Clothing'), (2, 'Electronics');
    insert into products values (1, 'hat', 50, 1), (2, 'cap', 25, 1), (3, 'macbook', 75, 2);

    select * from products p where exists (
        select * from categories c 
        where c.id = p.category_id and c.name = 'Clothing'
    );
} {1|hat|50|1
2|cap|25|1}

# Get users who have products with high-rated reviews
do_execsql_test_on_specific_db {:memory:} subquery-nested-exists {
    create table users(id, name);
    create table products(id, name, user_id);
    create table reviews(id, product_id, rating);
    insert into users values (1, 'Alice'), (2, 'Bob');
    insert into products values (1, 'hat', 1), (2, 'cap', 2);
    insert into reviews values (1, 1, 5);

    select * from users u where exists (
        select * from products p where p.user_id = u.id and exists (
            select 1 from reviews r where r.product_id = p.id and r.rating >= 4
        )
    );
} {1|Alice}

# Get products that have tags (none exist, so empty result)
do_execsql_test_on_specific_db {:memory:} subquery-exists-empty-result {
    create table products(id, name);
    create table tags(product_id, tag);
    insert into products values (1, 'hat'), (2, 'cap');

    select * from products p where exists (
        select * from tags t where t.product_id = p.id
    );
} {}

# Get users whose emails are not in the blocked list
do_execsql_test_on_specific_db {:memory:} subquery-not-exists-all-match {
    create table users(id, email);
    create table blocked_emails(email);
    insert into users values (1, 'alice@test.com'), (2, 'bob@test.com');
    insert into blocked_emails values ('spam@test.com');

    select * from users u where not exists (
        select * from blocked_emails b where b.email = u.email
    );
} {1|alice@test.com
2|bob@test.com}

# SCALAR SUBQUERIES

# Get products with price higher than average price
do_execsql_test_on_specific_db {:memory:} subquery-scalar-comparison {
    create table products(id, name, price);
    insert into products values (1, 'hat', 50), (2, 'cap', 25), (3, 'jacket', 75);

    select * from products where price >= (
        select avg(price) from products
    );
} {1|hat|50
3|jacket|75}

# Get users with the highest score
do_execsql_test_on_specific_db {:memory:} subquery-scalar-max {
    create table users(id, name, score);
    insert into users values (1, 'Alice', 85), (2, 'Bob', 92), (3, 'Charlie', 92);

    select * from users where score = (
        select max(score) from users
    );
} {2|Bob|92
3|Charlie|92}

# (x,y) IN SUBQUERIES

# Get products from specific categories using IN
do_execsql_test_on_specific_db {:memory:} subquery-in-single-column {
    create table products(id, name, category_id);
    create table categories(id, name);
    insert into categories values (1, 'Clothing'), (2, 'Electronics'), (3, 'Books');
    insert into products values (1, 'hat', 1), (2, 'laptop', 2), (3, 'novel', 3), (4, 'cap', 1);

    select * from products where category_id in (
        select id from categories where name in ('Clothing', 'Electronics')
    );
} {1|hat|1
2|laptop|2
4|cap|1}

# Get products NOT in discontinued categories
do_execsql_test_on_specific_db {:memory:} subquery-not-in-single-column {
    create table products(id, name, category_id);
    create table discontinued_categories(category_id);
    insert into products values (1, 'hat', 1), (2, 'laptop', 2), (3, 'book', 3);
    insert into discontinued_categories values (2);

    select * from products where category_id not in (
        select category_id from discontinued_categories
    );
} {1|hat|1
3|book|3}

# Get order items matching specific product-quantity combinations
do_execsql_test_on_specific_db {:memory:} subquery-in-multiple-columns {
    create table order_items(order_id, product_id, quantity);
    create table special_offers(product_id, min_quantity);
    insert into order_items values (1, 10, 5), (2, 20, 3), (3, 10, 2), (4, 30, 1);
    insert into special_offers values (10, 5), (20, 3);

    select * from order_items where (product_id, quantity) in (
        select product_id, min_quantity from special_offers
    );
} {1|10|5
2|20|3}

# Get users whose (name, age) combination is not in the restricted list
do_execsql_test_on_specific_db {:memory:} subquery-not-in-multiple-columns {
    create table users(id, name, age);
    create table restricted_profiles(name, age);
    insert into users values (1, 'Alice', 25), (2, 'Bob', 30), (3, 'Charlie', 25);
    insert into restricted_profiles values ('Bob', 30);

    select * from users where (name, age) not in (
        select name, age from restricted_profiles
    );
} {1|Alice|25
3|Charlie|25}

# SUBQUERIES IN OTHER POSITIONS (result columns, GROUP BY, ORDER BY, HAVING, LIMIT, OFFSET)

# Uncorrelated subquery in result column
do_execsql_test_on_specific_db {:memory:} subquery-uncorrelated-in-result-column {
    create table employees(id, name, dept_id);
    create table company_info(total_depts);
    insert into employees values (1, 'Alice', 10), (2, 'Bob', 20);
    insert into company_info values (5);

    select id, name, (select total_depts from company_info) as total_depts from employees;
} {1|Alice|5
2|Bob|5}

# Correlated subquery in result column
do_execsql_test_on_specific_db {:memory:} subquery-correlated-in-result-column {
    create table employees(id, name, dept_id);
    create table departments(id, name);
    insert into employees values (1, 'Alice', 10), (2, 'Bob', 20);
    insert into departments values (10, 'Sales'), (20, 'Engineering');

    select id, name, (select name from departments where id = dept_id) as dept_name from employees;
} {1|Alice|Sales
2|Bob|Engineering}

# Correlated subquery in result column with join
do_execsql_test_on_specific_db {:memory:} subquery-correlated-in-result-column-with-join {
    create table employees(id, name, dept_id, manager_id);
    create table departments(id, name);
    create table managers(id, name);
    insert into employees values (1, 'Alice', 10, 100), (2, 'Bob', 20, 200);
    insert into departments values (10, 'Sales'), (20, 'Engineering');
    insert into managers values (100, 'Carol'), (200, 'Dave');

    select e.id, e.name, m.name as manager, (select name from departments where id = e.dept_id) as dept_name 
    from employees e join managers m on e.manager_id = m.id;
} {1|Alice|Carol|Sales
2|Bob|Dave|Engineering}

# Uncorrelated IN-subquery in result column
do_execsql_test_on_specific_db {:memory:} subquery-uncorrelated-in-result-column-in {
    create table employees(id, name, dept_id);
    create table special_depts(dept_id);
    insert into employees values (1, 'Alice', 10), (2, 'Bob', 20), (3, 'Charlie', 30);
    insert into special_depts values (10), (20);

    select id, name, dept_id in (select dept_id from special_depts) as is_special from employees;
} {1|Alice|1
2|Bob|1
3|Charlie|0}

# Correlated IN-subquery in result column
do_execsql_test_on_specific_db {:memory:} subquery-correlated-in-result-column-in {
    create table employees(id, name, dept_id);
    create table dept_awards(dept_id, employee_id);
    insert into employees values (1, 'Alice', 10), (2, 'Bob', 20), (3, 'Charlie', 10);
    insert into dept_awards values (10, 1), (20, 2);

    select id, name, id in (select employee_id from dept_awards where dept_id = employees.dept_id) as has_award from employees;
} {1|Alice|1
2|Bob|1
3|Charlie|0}

# Uncorrelated subquery in GROUP BY clause
do_execsql_test_on_specific_db {:memory:} subquery-uncorrelated-in-group-by {
    create table sales(id, amount, region_id);
    create table grouping_config(group_column);
    insert into sales values (1, 100, 1), (2, 200, 1), (3, 150, 2);
    insert into grouping_config values ('region_id');

    select region_id, sum(amount) 
    from sales 
    group by (select case when group_column = 'region_id' then region_id else amount end from grouping_config);
} {1|300
2|150}

# Correlated subquery in GROUP BY clause
do_execsql_test_on_specific_db {:memory:} subquery-correlated-in-group-by {
    create table sales(id, amount, region_id);
    create table regions(id, name);
    insert into sales values (1, 100, 1), (2, 200, 1), (3, 150, 2);
    insert into regions values (1, 'North'), (2, 'South');

    select (select name from regions where id = region_id) as region, sum(amount) 
    from sales 
    group by (select name from regions where id = region_id);
} {North|300
South|150}

# Correlated subquery in GROUP BY clause with join
do_execsql_test_on_specific_db {:memory:} subquery-correlated-in-group-by-with-join {
    create table sales(id, amount, region_id, salesperson_id);
    create table regions(id, name);
    create table salespeople(id, name);
    insert into sales values (1, 100, 1, 10), (2, 200, 1, 20), (3, 150, 2, 10);
    insert into regions values (1, 'North'), (2, 'South');
    insert into salespeople values (10, 'Alice'), (20, 'Bob');

    select (select name from regions where id = s.region_id) as region, sp.name as salesperson, sum(amount) 
    from sales s join salespeople sp on s.salesperson_id = sp.id
    group by (select name from regions where id = s.region_id), sp.name;
} {North|Alice|100
North|Bob|200
South|Alice|150}

# Uncorrelated IN-subquery in ORDER BY clause
do_execsql_test_on_specific_db {:memory:} subquery-uncorrelated-in-order-by-in {
    create table products(id, name, category_id);
    create table priority_categories(category_id);
    insert into products values (1, 'hat', 2), (2, 'laptop', 1), (3, 'book', 3);
    insert into priority_categories values (1), (3);

    select id, name from products 
    order by category_id in (select category_id from priority_categories) desc, id;
} {2|laptop
3|book
1|hat}

# Uncorrelated subquery in HAVING clause
do_execsql_test_on_specific_db {:memory:} subquery-uncorrelated-in-having {
    create table orders(id, customer_id, amount);
    create table vip_threshold(min_amount);
    insert into orders values (1, 100, 50), (2, 100, 150), (3, 200, 30);
    insert into vip_threshold values (100);

    select customer_id, sum(amount) as total 
    from orders 
    group by customer_id 
    having total > (select min_amount from vip_threshold);
} {100|200}

# Uncorrelated IN-subquery in HAVING clause
do_execsql_test_on_specific_db {:memory:} subquery-uncorrelated-in-having-in {
    create table orders(id, customer_id, amount);
    create table target_totals(total_amount);
    insert into orders values (1, 100, 50), (2, 100, 150), (3, 200, 30), (4, 300, 100);
    insert into target_totals values (200), (100);

    select customer_id, sum(amount) as total 
    from orders 
    group by customer_id 
    having total in (select total_amount from target_totals);
} {100|200
300|100}

# Uncorrelated subquery in LIMIT clause
do_execsql_test_on_specific_db {:memory:} subquery-in-limit {
    create table items(id, name);
    create table config(max_results);
    insert into items values (1, 'a'), (2, 'b'), (3, 'c'), (4, 'd');
    insert into config values (2);

    select * from items limit (select max_results from config);
} {1|a
2|b}

# Uncorrelated subquery in OFFSET clause
do_execsql_test_on_specific_db {:memory:} subquery-in-offset {
    create table items(id, name);
    create table config(skip_count);
    insert into items values (1, 'a'), (2, 'b'), (3, 'c');
    insert into config values (1);

    select * from items limit 2 offset (select skip_count from config);
} {2|b
3|c}

### INCORRECT NUMBER OF RETURNED VALUES - ERROR TESTS ###

# Subquery returning multiple columns in SELECT clause (should error)
do_execsql_test_in_memory_any_error subquery-multiple-columns-in-select {
    create table t(x, y);
    insert into t values (1, 2);
    select (select x, y from t) as result;
}

# Subquery returning multiple columns in WHERE clause (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-where {
    create table t1(x,y);
    create table t2(y);
    insert into t1 values (1,1);
    insert into t2 values (1);
    select * from t2 where y = (select x,y from t1);
}

# Subquery returning multiple columns in HAVING clause (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-having {
    create table orders(customer_id, amount);
    create table thresholds(min_amount, max_amount);
    insert into orders values (100, 50), (100, 150);
    insert into thresholds values (100, 200);
    select customer_id, sum(amount) as total 
    from orders 
    group by customer_id 
    having total > (select min_amount, max_amount from thresholds);
}

# Subquery returning multiple columns in LIMIT clause (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-limit {
    create table items(id);
    create table config(max_results, other_col);
    insert into items values (1), (2), (3);
    insert into config values (2, 3);
    select * from items limit (select max_results, other_col from config);
}

# Subquery returning multiple columns in OFFSET clause (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-offset {
    create table items(id);
    create table config(skip_count, other_col);
    insert into items values (1), (2), (3);
    insert into config values (1, 2);
    select * from items limit 1 offset (select skip_count, other_col from config);
}

# Subquery returning multiple columns in ORDER BY clause (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-order-by {
    create table items(id, name);
    create table sort_order(priority, other_col);
    insert into items values (1, 'a'), (2, 'b');
    insert into sort_order values (1, 2);
    select * from items order by (select priority, other_col from sort_order);
}

# Subquery returning multiple columns in GROUP BY clause (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-group-by {
    create table sales(product_id, amount);
    create table grouping(category, other_col);
    insert into sales values (1, 100), (2, 200);
    insert into grouping values (1, 2);
    select sum(amount) from sales group by (select category, other_col from grouping);
}

# Subquery returning multiple columns in CASE WHEN (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-case-when {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select case when (select y, z from t2) then 'yes' else 'no' end from t1;
}

# Subquery returning multiple columns in CASE THEN (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-case-then {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select case when x = 1 then (select y, z from t2) else 0 end from t1;
}

# Subquery returning multiple columns in CASE ELSE (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-case-else {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select case when x = 2 then 0 else (select y, z from t2) end from t1;
}

# Subquery returning multiple columns in aggregate function argument (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-aggregate-arg {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select max((select y, z from t2)) from t1;
}

# Subquery returning multiple columns in binary expression (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-binary-expr {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select x + (select y, z from t2) from t1;
}

# Subquery returning multiple columns in BETWEEN (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-between {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (5);
    insert into t2 values (1, 2);
    select * from t1 where x between (select y, z from t2) and 10;
}

# Subquery returning multiple columns in CAST (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-cast {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select cast((select y, z from t2) as integer) from t1;
}

# Subquery returning multiple columns in COLLATE (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-collate {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values ('a', 'b');
    select (select y, z from t2) collate nocase from t1;
}

# Subquery returning multiple columns in IS NULL (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-is-null {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select * from t1 where (select y, z from t2) is null;
}

# Subquery returning multiple columns in NOT NULL (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-not-null {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select * from t1 where (select y, z from t2) not null;
}

# Subquery returning multiple columns in LIKE (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-like {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values ('a', 'b');
    select * from t1 where (select y, z from t2) like 'a%';
}

# Subquery returning multiple columns in unary operator (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-unary {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select -(select y, z from t2) from t1;
}

# Subquery returning multiple columns in function call (should error)
do_execsql_test_in_memory_any_error subquery-vector-in-function-call {
    create table t1(x);
    create table t2(y, z);
    insert into t1 values (1);
    insert into t2 values (1, 2);
    select abs((select y, z from t2)) from t1;
}
